Sorry to harp on, but this just sounds like a normal situation to me....you are buying PSU's from a company, you never wrote a spec for the PSU, you have given "BOM freedom" to the maker of the PSU.......and they have just gotten them built by someone who can do it cheaper at the time......this is the very nature of that market philosophy...which is the philosophy of the western world now.
Yes i think its bad...and yes mistakes happen which can be very costly........but its unavoidable with our "sub it out" mentality........it just sounds like they forgot to put the serial number in it to me......any power supply you get from anybody may be counterfeit, if you mean by counterfeit that the person you buy it off got someone cheaper to make it......There is a middle man somewhere here making big bucks from this "system".
I mean, most meaningful woudl be to do a comparative thermal test on a genuine, and a "counterfit" PSU.....see if the counterfit lasts less time.
As its a telecom power supply...youll need to be sure that the "counterfit" isnt producing electrical noise which ruins the telco data transmision/reception.
It woudl be interesting to do an inrush test, so you can see if they skipped the inrush limit on the "counterfit"
You coudl always send counterfit and genuine for "destruction testing".....this is where they both go into their own chamber on max load...and the temp and humidity is raised incrementally on both till they fail...then you can see which one is more rugged.
A quick test woudl be to get them side by side on the lab bench......into max load......take the cover off (already) , and see with a thermal cam if one is getting much hotter than the other.
You coudl send counterfit and genuine for a mains transient test..........and incrementally increase the transient each time...see which one cracks first.
You coudl send counter and gen for a conducted and radiated emc test...and compare their performance.
I woudlnt worry about the normal switchign frequency ripple..........btu if you see "ripple" which is much lower than f(sw), (at max load) then that is feedback loop oscillation and more of a problem...
Also, compare the waveform shape of the current that charges the battery from both conter and gen.......but im sure it will be flat DC current in each case.
Compare the magnitude of the charge current in each case...is it what was set?
You coudll always pull out the main electrolytics...do an ESR check on each...but even then, if the couterfit was higher esr it still doesnt mean it fails the sepc, because what was the spec?.....you coudl even measure the ripple current in each cap, but from what you say, the only bom differences were the electrolytic cap, so it shoudl be the same cap ripple in each.
The caps shoudl have hours and temperature ratings on them (eg 3000hrs at 105degc)...so check this is the same for each cap.
You can also do a lifetime calc for the caps.
You can also do a thermal test, where you put a thermocouple on the top of each cap, and compare. (max load, max ambient temp in a chamber)
But it just sounds like a normal situation to me......when the western world subs out its entire power supply business to the Far East, so that some western middle man somewhere can make more bucks...this is what happens....and it happens all the time.
Dont you worry about this...the one who should worry is the (western) middle man....thats if its not just a case of somebody forgetting to put the serial number in....which i suspect is the real problem here.
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Sorry to harp on...counterfeit PSUs is a interesting subject to me.
Could i summarise?
Your co buys PSU's for a telco.
The PSU is designed by an OEM
But you buy it from "known manufacturer_A"
....But you think some unknown "Manufacturer_B" made it instead. ?
But it all sounds normal to me.....swapping out big el caps is a standard build to build way of saving money.
And it just looks like someone forgot to put in the serial number.
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